EFFECT OF IRRADIANCE ON GROWTH AND REPRODUCTIVE PROCESSES DURING THE CELL CYCLE IN SCENEDESMUS ARMATUS (CHLOROPHYTA)1

Abstract

ABSTRACTSynchronized populations of the chlorococcal alga Scenedesmus armatus (Chod.) Chod. were grown under five irradiance levels. During the cell cycles of these populations, reproductive processes such as DNA replication, nuclear division, protoplast fission, and daughter cell release and growth processes such as RNA and protein accumulation were followed. The amount of RNA and proteins increased stepwise with a short time interval between individual steps during which the rate of RNA and protein accumulation decreased. At each of the steps, the amount of RNA and protein approximately doubled and the number of steps increased with irradiance. At the end of each of the growth steps, a commitment to trigger the sequence of reproductive events (DNA replication, nuclear division, protoplast fission) was attained. After attaining the commitment point, the cells were able to trigger and terminate the whole reproductive sequence without any further growth, that is, even in the dark when the external supply of energy was cut off. With increasing irradiance, the number of commitment points attained during one cell cycle increased from one to four. Consequently, one to four sequences of the reproductive steps were triggered, and each of them ended by doubling the reproductive structures, which resulted in the formation of 2, 4, 8, or 16 daughter cells. The length of the precommitment periods shortened with increasing irradiance as the result of an increasing rate in growth. The length of postcommitment periods showed light independence and remained constant at the range of irradiances at which the number of growth steps and, consequently, the number of sequences of reproductive events did not change. At higher irradiances, the number of sequences of reproductive events increased, which caused a prolongation of postcommitment periods. The length of the cell cycle varied as a result of this distinct effect of irradiance on pre‐ and postcommitment periods.